Veterinary perspectives on the urbanization of leishmaniosis in Morocco

Background Leishmaniosis caused by Leishmania infantum, L. major and L. tropica is endemic in Morocco. Growing evidence of both human and canine Leishmania infections in urban centres has been reported. Since many forms of the disease are zoonotic, veterinarians play an important role in leishmaniosis control by intervening at the parasite host level. This study aimed to bring together One Health principles to connect canine and feline leishmaniosis epidemiology within urban centres of Morocco (Rabat and Fez) and assess the level of awareness of Moroccan veterinarians about facing this threat. Methods A molecular survey was conducted for Leishmania DNA detection in canine (n = 155) and feline (n = 32) whole-blood samples. Three conventional polymerase chain reaction (PCR) protocols were implemented. The first PCR aimed at identifying infected animals by targeting Leishmania spp. kinetoplast minicircle DNA (kDNA). The second and third PCR targeted the Leishmania internal transcribed spacer region (ITS-1) and the Leishmania small subunit ribosomal RNA (SSUrRNA) gene, respectively, aiming at identification of the infecting species after Sanger sequencing-positive amplicons. Total immunoglobulin G (IgG) against Leishmania spp. was evaluated in 125 dogs by enzyme-linked immunosorbent assays (ELISA) using an in-house protocol, including three Leishmania-specific antigens (SPLA, rKDDR and LicTXNPx). Sera from 25 cats were screened for total IgG to Leishmania spp. by an indirect immunofluorescence antibody test (IFAT). An online questionnaire was presented to Moroccan veterinarians addressing their knowledge and practices towards animal leishmaniosis. Results Overall, 19.4% of the dogs tested positive for Leishmania kDNA and ITS-1 and sequencing revealed infection with L. infantum among PCR-positive dogs. These animals presented a wide range of ELISA seropositivity results (16.7%, 34.9% and 51.6%) according to the tested antigens (rKDDR, SPLA and LicTXNPx, respectively). Use of kDNA-PCR revealed 12.5% cats positive to Leishmania spp. otherwise found to be seronegative by IFAT. Conclusions A considerable prevalence of infection was identified in dogs from urban centres of Morocco. Additionally, this is the first report of feline infection with Leishmania spp. in this country and in urban settings. Moroccan veterinarians are aware that animal leishmaniosis is endemic in Morocco, representing a public health threat, and are knowledgeable about canine leishmaniosis diagnosis and treatment. Graphical Abstract Supplementary Information The online version contains supplementary material available at 10.1186/s13071-024-06411-5.


Background
Leishmania parasites have infected vertebrates since ancient times [1].Among the more than 50 known Leishmania spp., which are mainly transmitted by bloodfeeding female phlebotomine sand flies, around 20 are known to infect humans and around 12 to infect dogs.Diseases caused by Leishmania spp.are endemic in more than 90 countries.They are far from being eradicated and contribute largely to Neglected Tropical Disease (NTD)-associated mortality [2].Zoonotic visceral leishmaniosis (VL) is endemic in the Maghreb region, as is zoonotic and anthroponotic cutaneous leishmaniosis (CL) [3][4][5].In this epidemiological context, zoonotic VL is caused by Leishmania infantum, whereas Leishmania major and Leishmania tropica are aetiological agents of CL.In Morocco, the burden of CL is higher than that of VL [6][7][8].Between 1997 and 2018, a total of 78,001 CL (with 54% assumed to be caused by L. major and 43% by L. tropica) and 2298 VL cases were reported [5,7,8].Sporadic L. infantum-associated cutaneous lesions accounted for 3% of new diagnoses of CL [7,8].While VL is a chronic wasting pathology with a fatal outcome if untreated, the cutaneous presentations are not lifethreatening.Nonetheless, they are long lasting and lead to social discrimination and stigmatization [9,10].
Overall, L. infantum and L. tropica are endemic in the northern regions of Morocco, with L. tropica being also endemic in the central and western semi-arid areas [5,11,12].As for L. major, it has been found in the south of the country (in the Saharan region).These differences can be attributed to the dispersal of Leishmania vectors, mostly dictated by latitude, altitude, landscape, environment and climate [13,14].Domestic dogs are the primary urban reservoirs of L. infantum [15] and canine leishmaniosis (CanL) is an impacting zoonotic parasitic vector-borne disease.In Morocco, CanL is caused by zoonotic L. infantum, and between 2001 and 2021 the overall national seroprevalence was estimated at 24% [11].This is 10% higher than the estimated value for the period of 1982 to 2001 [15].Therefore, CanL surveillance and control are of the utmost importance for public health.Most of these surveillance efforts are carried out by veterinarians and understanding their degree of preparedness is essential.Moreover, leishmaniosis is considered a public health priority in Morocco, notifiable since 1995.Furthermore, human leishmaniosis is considered a rural and peri-urban disease, affecting mostly children and those living in low socioeconomic conditions, where the proximity between humans and animals favours zoonotic transmission [5,6,16].Following this and considering One Heath responsibilities and the World Health Organization (WHO) recommendations for top key interventions to overcome NTD, veterinarians' role in effective disease control is essential [2].Zoonotic VL [16] and CL [12] case detection is increasing in urban settings.Thus, in this context, it is important to generate data that evaluate whether surveillance should be extended beyond the traditional rural context.Besides, given the growing debate over the role of cats in L. infantum transmission, followed by evidence of a high prevalence of feline infection and the infectiousness of cats to phlebotomine sand flies [17][18][19], both canine and feline species should be monitored when considering zoonotic leishmaniosis surveillance.
In epidemiological settings where zoonotic Leishmania spp.occurs in sympatry among vectors, animal hosts and humans, field and laboratory surveillances are the foundation for monitoring infection and disease burden and early recognition of epidemics [20,21].Laboratory diagnosis is challenged by the outcome of complex and effective parasite interaction with the host.This is reflected in a spectrum of presentations, ranging from subclinical infection to severe disease, which may not always be accompanied by the development of detectable humoral responses [22].The magnitude and specificity of both humoral and cellular responses hamper the use of a single diagnostic approach to detect Leishmania infections [23][24][25].The combination of both molecular and multiparameter serological approaches to investigate infection improves clinical CanL diagnosis [23,25,26], providing remarkable advantages in the identification of subclinical infections [27][28][29].Serological surveys of leishmaniosis largely rely on crude Leishmania promastigote soluble antigens.Previous reports have highlighted the need to critically evaluate Leishmania-specific seroreactivity against such crude antigens as distinct patterns of seroreactivity can be found even in non-endemic regions because of a polyclonal or cross-seroreactivity to other pathogens [26].Therefore, application of multiparameter tools for leishmaniosis diagnosis and epidemiological studies is justified.
Based on these premises, this study aimed to assess Moroccan veterinarians' knowledge on animal leishmaniosis management and provide updated epidemiological data on canine and feline infection with Leishmania spp. in the cities of Rabat and Fez.Rabat is the capital city of Morocco, located along the Atlantic Ocean coastline.It is the seventh largest city in the country.Fez is the second largest city in Morocco and the capital of the Fès-Meknès region, located in the northern interior of Morocco (northwest of the Atlas Mountains).To achieve these goals, we explored the potential of molecular and multiparameter serological approaches for detecting animal leishmaniosis while investigating how veterinarians across the country perceive this disease and which practices are most applied for its management.

Study area
The study was conducted between December 2022 and December 2023 in two urban settings of northern Morocco, the cities of Rabat and Fez.Inclusion criteria included previous reports on the endemicity of leishmaniosis in the region, but not within urban centres [11], and the existence of at least one animal shelter and a veterinary practice in town.
Canine and feline sampling sites included an animal shelter in Rabat city, an animal shelter in Fez, a clinical practice located in Rabat ("Institut Agronomique et Vétérinaire" [IAV] Hassan II Veterinary Teaching Hospital) and a private veterinary practice in Fez.Collaborating institutions were selected based on the willingness to participate in the research after being contacted with a description of the scope of the study and a request to collaborate.Samples were collected or obtained from convenience sampling of randomly selected animals living in shelters and others admitted for a consultation at collaborating veterinary centers.Feline samples were also conveniently collected from cats admitted for a consultation or to trap-neuter-release (TNR) programmes at IAV Hassan II Veterinary Teaching Hospital.

Clinical data and blood collection
Clinical manifestations compatible with leishmaniosis were registered for dogs [30] and cats [18,[30][31][32] along with the city, animal's sex, estimated age, breed, housing/ habitat, antiparasitic prophylaxis and antiviral vaccination (whenever possible).No information on antiparasitic prophylaxis and antiviral vaccination was available for stray cats.Whenever two or more clinical signs or manifestations compatible with leishmaniosis were observed, the animal was described as "CanL-suspect" or "feline leishmaniosis (FeL)-suspect".Peripheral blood samples were obtained after oral informed consent from the animal owner or legal representative.Samples were transported to the IAV Hassan II Parasitology and Parasitic Diseases Unit, where they were aliquoted and stored at -20 °C until testing.
An ethical clearance statement for this study was issued by IAV Hassan II "Comité d'Ethique en Sciences et Santé Animales et Santé Publique Vétérinaire" (CESASPV).

Molecular survey
Genomic DNA was extracted from 200 μl of whole blood (in EDTA) collected from 155 dogs and 32 cats.Extraction was performed by a commercial kit (DNAeasy Blood and Tissue Kit, Qiagen, Hilden, Germany) according to the manufacturer's instructions.Individual DNA aliquots were frozen at -20 °C until further processing.Three polymerase chain reaction (PCR) protocols were implemented aiming at Leishmania detection and further species identification by sequencing and assembling the positive products.First, for Leishmania spp.detection, a kinetoplast minicircle DNA (kDNA)-PCR was performed on all samples.The PCR used primers RV1 (forward) (5′CTT TTC TGG TCC CGC GGG TAGG) and RV2 (reverse) (5′ CCA CCT GGC CTA TTT TAC ACCA), targeting a conserved region of Leishmania sp.kDNA, through amplification of a ∼ 145 bp product [33].Then, all kDNA-PCR positive samples were subject to two new PCR protocols, targeting different regions of the small subunit ribosomal ribonucleic acid gene.These included a conventional PCR protocol to detect Leishmania internal transcribed spacer 1 (ITS-1) region of the Leishmania small subunit ribosomal RNA gene (SSU-rRNA), using LiTSR (forward) (5′-CTG GAT CAT TTT CCG ATG -3′) and L5.8S (reverse) (5′-TGA TAC CAC TTA TCG CAC TT-3′) primers [34], and a Leishmania-specific nested PCR (LnPCR) targeting Leishmania SSUrRNA gene, using the set of primers R221 (GGT TCC TTT CCT GAT TTACG) and R332 (GGC CGG TAA AGG CCG AAT AG) for the first amplification, followed by reamplification of the previous products using primers R223 (TCC CAT CGC AAC CTC GGT T) and R333 (AAA GCG GGC GCG GTG CTG ) [35].Thermocycling conditions are described in Additional file 1: Table S1.
PCR products were submitted to electrophoresis for 60 min, 120 V, in ultrapure agarose gel (2%) (Ultra-pure grade agarose, NZYtech, Lisbon, Portugal) prepared in 1 × Tris-acetate-EDTA buffer (TAE) supplemented with 0.2 μg/ml nucleic acid stain (GreenSafe Premium, NZYtech, Lisbon, Portugal).Qualitative identification of PCR products was performed by gel visualization under UV light (530 nm) (ChemiDoc XRS + system; Bio-Rad, Hercules, CA, USA) and complemented with quantitative analysis by Image Lab software version 6.1, Lane profile tool (Bio-Rad, Inc).Genomic DNA from a L. infantum laboratory strain (MHOM/MA/67/ITMAP-263) was used as positive control.Contaminations were assessed by lack of amplification on a blank sample consisting of water instead of DNA.Results were compared to a 100bp molecular marker (Ladder V, NZYTech).
Whenever required for sequencing, PCR products were retrieved from the electrophoresis gel, purified and quantified.The agarose gel extracted DNA products were purified using NucleoSpin Gel and PCR Clean-up columns (Macherey-Nagel GmbH&Co., Düren, Germany) and quantified by nanodrop (ND1000 spectrophotometer, NanoDrop).
Positive ITS-1 and SSUrRNA amplicons and kDNApositive cats were Sanger sequenced in both directions, using the same forward and reverse primers (AB Applied Biosystems, Thermo Fisher Scientific, Waltham, MA, USA).Nucleotide (nt) sequences were assembled and compared for similarity with other sequences available at the National Center for Biotechnology Information (NCBI) GenBank using the Basic Local Alignment Search Tool (BLAST; http:// blast.ncbi.nlm.nih.gov/ Blast.cgi).

Serological survey
Canine (n = 125) sera were tested for anti-Leishmania total immunoglobulin G (IgG) using an in-house enzyme-linked immunosorbent assay (ELISA).The canine ELISA protocols were based on three soluble Leishmania-specific antigens, including soluble promastigote Leishmania crude proteins (SPLA, 10 μg ml −1 ) l recombinant Leishmania kinesin degenerated derived repeats (rKDDR, 5 μg ml −1 ) and L. infantum cytosolic tryparedoxin peroxidase (LicTXNPx, 5 μg ml −1 ), as previously described [23,26,29].Canine serum samples were tested at 1:1500 dilution (100 μl/well) using 100 μl/ well of rabbit-produced anti-dog IgG antibody conjugated with horseradish peroxidase (Sigma, St. Louis, MO, USA) diluted to 1:1500 in PBS-Tween 0.05%.Sera from a dog naturally infected with L. infantum was used as a CanL-positive control.All samples were tested in technical triplicates for each antigen.The blank for each antigen including a conjugated control, containing no sera, was also tested in triplicate for each antigen.At least two independent assays were performed.Optical densities (ODs) were recorded at 490 nm for every single measurement using an automated ELISA plate reader (Synergy 2, BioTek Instruments, Winooski, VT, USA).Seropositivity for CanL was determined by cut-offs previously calculated for this ELISA protocol by means of receiver operating characteristic (ROC)-curve analysis [23], including 0.075 OD for SPLA, 0.098 OD for rKDDR and 0.04 OD for LicTXNPx.
Feline (n = 25) seropositivity for anti-Leishmania total IgG was evaluated by indirect immunofluorescence antibody test (IFAT).The previously validated FeL-IFAT [36] was implemented and reproduced with minor modifications, as previously described [37].Positivity was considered whenever > 50% of the acetone fixed L. infantum promastigotes produced clear green fluorescence on cytoplasm, cellular membranes and flagella.Serum from a L. infantum naturally infected cat was used as a positive control.The negative control or blank consisted of a conjugated control, containing no sera.Positivity cut-off was defined at 1:80 serum dilution.

Questionnaire to veterinarians
An anonymous and self-administered questionnaire directed to Moroccan veterinarians was structured on Google Forms and disseminated online to collect information on veterinarians' knowledge and practices regarding animal leishmaniosis in Morocco.The questionnaire was constructed in English and later translated into French by a bilingual researcher from IAV Hassan II, Rabat, Morocco.Before dissemination, the questionnaire was tested and evaluated by five non-Moroccan and three Moroccan veterinarians to assess its conformity.The time for completion was estimated at 15 min.The questionnaire was divided into two parts.The first part aimed at a demographic characterization, including a description of the participants gender, age, graduating institution, clinical experience (years in practice, type of practice) and geographical location.The second part focused on veterinarians' knowledge of leishmaniosis epidemiology in Morocco and explored clinicians' experience with leishmaniosis prevention, diagnosis and treatment.In this section, veterinarians were asked to identify leishmaniosis as a zoonotic disease, identify animal reservoirs and transmission vectors, recognize the most prevalent Leishmania sp./spp. in Morocco responsible for human and animal disease and describe clinical manifestations associated with previously diagnosed cases of leishmaniosis (independently of the animal species), treatments applied and their position regarding the recommendation of prophylactic measures against animal leishmaniosis.Answers could be selected from multiple choices (Additional file 2: Figure S1).
The questionnaire was disseminated between December 2022 and June 2023 among approximately 220 potential respondents, taking advantage of veterinarydedicated social media platforms in Morocco and electronic e-mail addresses used in a previous questionnaire organized by the IAV "Unité de Parasitologie et Maladies Parasitaires, Département de Pathologie et Santé Publique Vétérinaires, Rabat, Morocco".Information on the scope and purpose of the questionnaire was made available upfront.Eligibility criteria to participate in the survey included a graduation in veterinary medicine, being currently active in clinical practice and having access to an internet-connected device.Participation was voluntary and anonymous.

Data analysis
Statistical analysis was performed using IBM SPSS Statistics for Window, version 27.0 (IBM Corp, Armonk, NY, USA) and Microsoft Excel (Microsoft Corp., Redmond, WA, USA).Pearson Chi-square test (χ 2 ) and Fisher's exact test (FET) were used to compare percentages; the McNemar test compared percentages obtained from paired samples (i.e. from the same animal); the Cohen's kappa coefficient assessed agreement beyond chance; 95% confidence intervals were defined by the exact binomial test.To allow a bivariate statistical analysis of the questionnaire results, the following variables were regrouped: age, years in practice, type of practice and practice location.Statistically significant differences were considered whenever the p (probability) value was < 0.05.
The feline group included 27 (81.8%)stray and 6 (18.2%) owned cats (5 living strictly indoor and 1 with outdoor access) (Additional file 4: Table S3).All stray cats had been admitted at IAV Hassan II Veterinary Teaching Hospital for TNR.Owned cats had been admitted at this same institution following the need for a veterinary appointment.Male cats (8/31) were either neutered (n = 6) or intact (n = 2), while female cats were all intact (Additional file 4: Table S3).
All sheltered dogs were overdue for internal and external parasite prophylaxis and vaccines.In the group of owned dogs, 50% were up to date with rabies and core vaccination.Canine intestinal parasite preventives were administered monthly to 33.3% of the dogs, quarterly to 1.8% of the dogs and twice yearly in 10.5% of the dogs.
Over 45% of the dogs had not been dewormed in more than a year.None of the studied dogs were under continuous prophylaxis against phlebotomine sand flies.Flea and tick prevention (repellent or insecticidal treatments) was administered following the manufacturer's recommendations in 34% of the owned dogs, while 60.7% were overdue for flea and ticks' prevention and 1.8% had never received any (Additional file 3: Table S2).
All four kDNA-positive feline samples tested negative by Leishmania ITS1-PCR and SSUrRNA-LnPCR.Still, an attempt to identify the infecting Leishmania spp. was carried out by sequencing the purified amplicons obtained in positive kDNA samples (Additional file 8: Table S7).Three out of the four kDNA-PCR positive samples had sufficient DNA concentration and quality for sequencing.The search for similarities was performed by multiple sequence alignments with nt datasets and the results were confirmatory of infection with Leishmania spp.
With the goal of understanding bias-related sample collection, statistical analysis was performed among five variables, including sex, breed, housing, city and presence of clinical manifestations suggestive of leishmaniosis (Additional file 7: Table S6).The animal's age was excluded from the analysis because most of the sampled animals (92.3%) were adult dogs.No significance was attributed to differences obtained by kDNA-PCR positivity and the dog's sex, breed, city and housing conditions.Yet, as expected, statistically significant differences (p = 0.028) were detected between kDNA-PCR positivity and the presence of clinical manifestations suggestive of CanL.Among CanL clinically suspect dogs, 30.6% tested kDNA-PCR positive.Subclinical infection was diagnosed among 14.2% of the non-CanL suspect dogs (Additional file 7: Table S6).From this analysis, we excluded possible sample bias and conclude that CanL burden is as serious in Rabat as in Fez.
Feline infection with Leishmania spp.(determined by kDNA-PCR positivity) was also subject to statistical analysis by Fisher's exact test (Table 1).Four variables were included: sex, age group, habitat (being indoor or having outdoor access, herein representing stray cats and owned with outdoor access) and the presence of clinical manifestations suggestive of leishmaniosis.Breed was excluded since all cats were domestic short hair.All four kDNA-PCR-positive cats were adult females living outdoors, three of which presented no clinical manifestations suggestive of FeL.No statistically significant differences were observed between kDNA positivity and any of the defined variables (Table 1).
To evaluate the differences between techniques, kDNA-PCR positivity and seropositivity against any of the Leishmania-specific antigens was analysed by the McNemar test (paired samples).Statistically significant differences (p < 0.05) were detected between kDNA-PCR and the different ELISA techniques but also between seropositivity to the different ELISA Leishmania-specific antigens (Table 2).The best agreement between kDNA-PCR and ELISA positivity was seen for rKDDR (κ = 0.304), following kDNA-PCR and SPLA (κ = 0.220) and kDNA-PCR and LicTXNPx (κ = 0.154).Among the three different Leishmania-specific antigens, moderate agreement was   found for SPLA and LicTXNPx (κ = 0.575) followed by SPLA and rKDDR (κ = 0.543) (Table 3).Statistically significant differences were identified between seropositivity to any Leishmania-specific antigen and the dog's city of origin (Rabat vs. Fez) and between seropositivity to SPLA or rKDDR and the presence of clinical manifestations of CanL.The remaining studied variables, namely sex, breed and housing conditions, were not associated with increased seropositivity to any of the studied Leishmania-specific antigens (Table 2).

Results on veterinarians' general knowledge of leishmaniosis epidemiology in Morocco
Answers to individual questions regarding Moroccan veterinarians' general knowledge of leishmaniosis epidemiology in the country are summarized in Additional file 10: Table S9.Most of the questioned veterinarians (74%) recognized leishmaniosis as a disease of zoonotic potential, with vector-borne origin (identified by 98% of the respondents) and having phlebotomine sandflies as the most important natural vectors in Morocco (identified by 90% of the respondents).Likewise, 76% correctly identified L. infantum as the causative agent of canine and feline leishmaniosis, and 54% recognized dogs as the primary host for this parasite.Regarding other Leishmania spp. of public health importance and endemic in Morocco, 24% of the veterinarians were aware that desert rats (genus Meriones) are primary host of L. major, and 20% positively associated humans as reservoirs of L. tropica.When questioned about the most important reservoir host for L. major and L. tropica, 32 and 44% of the respondents replied "don't know", respectively.

Results on veterinary knowledge and practices regarding leishmaniosis diagnosis, treatment and prevention
Answers to individual questions inquiring about Moroccan veterinarian's clinical experience with animal leishmaniosis (including previous diagnosis, treatment and current prophylactic recommendations) are summarized in Table 4 and Additional file 11: Table S10.Thirtyseven (74%) of the questioned veterinarians mentioned having diagnosed animal leishmaniosis in the past, while 12 clinicians (24%) had never done so.Canine leishmaniosis was diagnosed by 36 (71%) of the veterinarians, and 1 veterinarian diagnosed leishmaniosis in a donkey.Among those who had diagnosed leishmaniosis in the past, 76% (28/37) correctly prescribed at least one anti-leishmanial drug (either allopurinol, meglumine antimoniate or miltefosine) (Table 4 and Additional file 11: Table S10).However, the ability to diagnose and treat leishmaniosis was not associated with clinical experience, as no statistically significant differences were observed between previous diagnosis of animal leishmaniosis, years of clinical practice (p = 0.086) or correct prescription of at least one specific treatment (Table 4).Fourteen percent (7/50) of the respondents reported being familiar with international guidelines for animal leishmaniosis, such as the LeishVet, ESCCAP (European Scientific Counsel Companion Animal Parasites) or CLWG (Canine Leishmaniasis Working Group) recommendations (Table 4 and Additional file 11: Table S10).No statistically significant differences (p > 0.05) were found between knowledge of guidelines for clinical leishmaniosis and having diagnosed leishmaniosis in the past, describing its clinical manifestations (list three or more clinical signs) and treat the disease (Table 4).When requested to describe the clinical manifestations of leishmaniosis identified in previously diagnosed cases, 70% (35/50) of the clinicians correctly identified and described three or more clinical signs, 6% (3/50) described at least two clinical signs and only 4% (2/50) described one (Additional file 11: Table S10).The ability to describe three or more CanL clinical manifestations presented statistically significant differences between those practicing for < or > 5 years (p = 0.043) and working in urban or rural settings (Table 4).
Regarding prophylactic measures to prevent canine infection by Leishmania parasites, 36% (18/50) of the veterinarians reported their recommendation, even if only to animals living outdoors (12/36%; 6/18) (Table 4).Previous knowledge of guidelines for leishmaniosis management had no positive statistical association with prophylactic recommendations for this disease (Table 4).Veterinarians working in urban areas are keener to recommend CanL prophylaxis compared to those working in rural environments (p = 0.018).

Discussion
The first report of CanL in Morocco dates from 1932, and studies on prevalence have been performed since then but irregularly distributed over time and space [11].
In the present study, we investigated, for the first time, canine and feline infection with Leishmania spp. in the urban centres of Rabat and Fez.Simultaneously, a questionnaire was distributed among Moroccan veterinarians to assess their knowledge and practices towards leishmaniosis epidemiology in the country as well as clinical management of the disease in animals.
This study revealed that the global molecular prevalence of Leishmania in dogs from Rabat and Fez, considering positivity to the kDNA-PCR, was 19.4%.No significant differences in CanL prevalence were observed in both cities, with 18.8% prevalence in Rabat and 20% in Fez.These results are consistent with previous reports estimating a pool CanL prevalence of 29% in the region of Rabat-Sale-Kénitra and 20% in the Fez-Meknes region [11].The only characteristic that significantly impacted the detection of kDNA was the presence of clinical signs suggestive of CanL.In fact, molecular testing confirmed CanL diagnosis in 30.6% of suspect presentations, while 14.2% of the non-CanL suspect dogs were found subclinically infected.This is in line with other studies reporting increased capacity of PCR to detected Leishmania in the presence of clinical signs [23].Still, detection of DNA in animals without clinical signs is not uncommon [23,27].The sequencing of ITS-1-positive products was possible for two dogs, confirming L. infantum infection.This observation is expected considering the epidemiological context [5,11].
In cats, kDNA-PCR detected four positive cases, with one being clinically suspect.This is the first report of possible feline infection with Leishmania spp. in Morocco.The prevalence of feline infection as detected by PCR (12.5%;Additional file 9: Table S8) was lower than that of canine infection (19.4%,Additional file 7: Table S6) within the urban setting of Rabat.Likewise, lower prevalence of FeL compared to CanL in regions of high endemicity for leishmaniosis has been reported in other Mediterranean countries such as Greece and Portugal [38][39][40].Importantly, the kDNA sequencing supported feline infection with Leishmania spp.Although the best identification obtained from sequence alignment matched L. infantum kDNA sequences, again expected for the geographical area, the heterogenic nature of minicircle networks hampers the use of this peculiar genomic region for a particular species and strain typing.
Considering individual antigens, the highest percentage of seropositivity was associated with LicTXNPx (52.0%) followed by SPLA (35.2%) and rKDDR (16.8%).Double seropositivity to rKDDR and SPLA was evident in 18.8% of the animals and 16.8% of the samples positive to all ELISA antigens (Figs. 1 and 2).These numbers, using combined seropositivity to rKDDR and SPLA as antigens, fit the available epidemiological data from Morocco.Moreover, seropositivity to SPLA and rKDDR was significantly more overrepresented in clinically suspect animals, supporting the capacity of the presented cut-offs for these two antigens to detect disease and provide relevant epidemiological data in this geographical context.High seropositivity to LicTXNPx contrasts with available epidemiological information on the region and can be justified by the facts that the cut-offs were calculated using cohorts from other geographical regions and that maybe some environmental organism may be generating cross-reactivity to this antigen.The fact that LicTXNPx was not significantly overrepresented in clinically suspect dogs, unlike rKDDR or SPLA, at first glance could be considered indicative of cross-reactivity with other pathogens.Still, LicTXNPx was previously associated with early seroconversion in experimentally infected dogs and was able to detect subclinical infections [34].
In the present study, no statistically significant differences were identified between kDNA-PCR positivity (Additional file 7: Table S6) or seropositivity to any Leishmania-specific antigen (Table 1) when comparing owned and sheltered dogs from both cities, although global percentual seropositivity to any antigen was found higher in sheltered dogs compared to domestic.Importantly, none of the 156 dogs were undergoing continuous and effective prophylaxis against CanL, a circumstance which may have increased the risk to vector exposure and Leishmania infection.Despite a lack of sufficient studies that simultaneously compare CanL prevalence between owned and sheltered/stray dogs from the same region, the hypothesis that stray and sheltered animals are more prone to Leishmania infection compared to companion dogs has been supported [41] and contradicted [42].Such differences can be explained by the level of veterinary care and CanL prophylaxis measures provided to each group of animals [42].
Concerning cats, although four animals were PCR positive for Leishmania kDNA, lack of agreement between molecular and serological detection of FeL has been previously reported [43,44].Overall, the molecular data generated suggest an important presence of Leishmania in urban settings.Under the current experimental settings, the amplification of ITS-1 and SSUrRNA products out of kDNA-positive feline samples was not productive.This can be justified by the fact that kDNA amplification offers higher sensitivity, since > 10,000 copies of kDNA can be present per parasite, while ITS1 fragments present dozens to over a few hundred copies [45].Before concluding about cats' participation in the epidemiology of the disease in Morocco, a more extensive approach to feline Leishmania infection is required.
For the first time, the present study provides data on the veterinary practitioners' knowledge of the epidemiology and clinical management of leishmaniosis in Morocco.Two hundred twenty Moroccan veterinarians, enrolled in a previous survey, were electronically contacted with a request to participate in a questionnaire involving questions related to their knowledge, perceptions and practices regarding zoonotic diseases.Fifty respondents completed the questionnaires.The veterinary survey showed an optimistic scenario regarding veterinary knowledge of animal leishmaniosis epidemiology in Morocco.This is reflected in a high percentage (74%) of the questioned veterinarians who had diagnosed leishmaniosis in the past and prescribed at least one dedicated treatment (76% of those diagnosed leishmaniosis).Compared to Portuguese veterinarians [46], Moroccans are less familiar with international guidelines for CanL and FeL management (with 14% of Moroccan respondents being familiar with such recommendations) (Table 4 and Additional file 11: Table S10).Nevertheless, similarly to a group of surveyed Spanish and French peers, the level of knowledge on international guidelines for CanL and FeL does not impair recognition of clinical signs of the disease or its diagnosing and prescription of a treatment in line with such guidelines [47].Nonetheless, increasing clinician's awareness of Leishmania spp.infection among other domestic species, namely the cat, would profit the practitioners.An absence of recommendations for an effective prophylaxis against phlebotomine sand fly vectors was found among all respondent veterinarians.Besides, 64% of the questioned clinicians do not recommend CanL prevention and only 12% do so if the animal lives outdoors (Table 4 and Additional file 11: Table S10).Thus, it is important to reinforce this measure among animal health providers to tackle Leishmania spp.transmission in Morocco.

Conclusions
The results of the present study support previous assumptions about the presence of Leishmania infections among primary reservoir animals living within urban boundaries of Moroccan cities, with kDNA-PCR pointing to 19.4% prevalence of infection among dogs from the cities of Rabat and Fez and 12.5% in cats from Rabat.Besides, L. infantum was confirmed to be the infecting species in two dogs.For the first time, Moroccan veterinarians were surveyed on their knowledge on leishmaniosis epidemiology and clinical decisions regarding its management.From the analyses of the questioned veterinarian cohort, we recognized that Moroccan veterinarians are able to identify and manage CanL.Finally, considering both the epidemiological and veterinary survey findings, it still seems necessary to reinforce recommendations and strategies for effective prophylactic approaches to tackle canine and feline Leishmania infection and disease in urban settings of Morocco.Overall, this report highlights the need for a collaborative effort between epidemiological research and veterinary practice to mitigate the impact of leishmaniosis on both animal and human populations in the region.

AFig. 1
Fig.1Upset plot depicting intersection of positive results for polymerase chain reaction (PCR), Leishmania kinesin degenerated-derived repeats (rKDDR), soluble promastigote Leishmania crude proteins (SPLA) and Leishmania infantum cytosolic tryparedoxin peroxidase (LicTXNPx) in the group of dogs with canine leishmaniosis clinical manifestations (n = 45).The vertical columns in the graph represent the absolute number and percentage of positive events of each intersection, associated with the four parameters evaluated.The connecting line below each column represents the intersection of the tested parameters.The absence of an intersecting line means positivity to one event (quantified in the upper black column)

AFig. 2 Table 3
Fig.2Upset plot depicting intersection of positive results for polymerase chain reaction (PCR), Leishmania kinesin degenerated-derived repeats (rKDDR), soluble promastigote Leishmania crude proteins (SPLA) and Leishmania infantum cytosolic tryparedoxin peroxidase (LicTXNPx) in the group of dogs without canine leishmaniosis clinical manifestations (n = 80).The vertical columns in the graph represent the absolute number and percentage of positive events of each intersection associated with the four parameters evaluated.The connecting line below each column represents the intersection of the tested parameters.The absence of an intersecting line means positivity to one event (quantified in the upper black column)

Table 1
Prevalence of Leishmania spp. in 32 cats from Rabat, Two or more clinical manifestations compatible with FeL comprising generalized alopecia, seborrhea, crusts, conjunctivitis, cachexia and hyperkeratosis a 95% confidence interval b Fisher's exact test c

Table 4
Knowledge and clinical decisions of Moroccan veterinarians (n = 50) regarding animal leishmaniosis according to type of practice, experience, practice location and knowledge of guidelines for the management of animal leishmaniosis Comprising lymphadenopathy, skin disorders, onychogryphosis, ophthalmic disorders, cachexia, fever, anemia and kidney disease c Antileishmanial treatments applied include sole or combination of leishmanicidal (miltefosine, meglumine antimoniate) and leishmaniostatic (allopurinol) drugs d LeishVet, ESCCAP (European Scientific Counsel Companion Animal Parasites) or CLWG (Canine Leishmaniasis Working Group) guidelines; e computed for 36 responses only a Fisher's exact test b